CN111332032A

CN111332032A - Digital ink-jet type cloth printing machine

Info

Publication number: CN111332032A
Application number: CN202010226384.4A
Authority: CN
Inventors: 孟令霄; 程顺平
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-27
Filing date: 2020-03-27
Publication date: 2020-06-26

Abstract

The invention belongs to the technical field of cloth printing equipment, and particularly relates to a digital ink-jet type cloth printing machine which comprises a digital ink-jet printing main body and cloth, wherein a discharging mechanism is arranged on one side of the digital ink-jet printing main body, a drying mechanism is arranged on the other side of the digital ink-jet printing main body, the drying mechanism comprises a drying rack, a supporting roller, a drying plate, a heating plate, a preheating plate, a fixed block, a drying heating pipe and a mounting groove, the fixed block is fixedly arranged on the inner side of the upper end of the drying rack, and the mounting groove is formed in the upper surface of the fixed; through the mounting groove and the drying plate, the heating plate and the preheating plate of design, the drying heating pipe is installed at the drying plate, the heating plate and the preheating plate, when the drying heating pipe is damaged, the clamping of the mounting groove and the drying plate, the heating plate and the preheating plate can be taken out, and the drying heating pipe is conveniently detached to be overhauled.

Description

Digital ink-jet type cloth printing machine

Technical Field

The invention belongs to the technical field of cloth printing equipment, and particularly relates to a digital ink-jet type cloth printing machine.

Background

An ink-jet digital printing machine is a printing machine. The ink-jet digital printing machine breaks through the technical bottleneck of digital printing, and realizes one-time printing without plate making and full-color images in real sense. The ink-jet digital printing machine can print, and the super-long thickening platform can ensure that the length of a printed article reaches 100cm and the thickness of the printed article reaches 20 cm.

The existing digital ink-jet cloth printing machine needs to be dried after ink-jet printing, when a drying heating pipe is damaged after long-time use, the drying heating pipe cannot be detached well for maintenance, the problem that the temperature of cloth is too high after drying is solved, and the heat utilization rate is low due to the loss of hot air in the cloth drying process, so that the cloth production efficiency is low, the energy consumption is serious, and therefore the digital ink-jet cloth printing machine is provided.

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides a digital ink-jet cloth printing machine.

The technical scheme adopted by the invention for solving the technical problems is as follows: a digital ink-jet cloth printing machine comprises a digital ink-jet printing main body and cloth, wherein one side of the digital ink-jet printing main body is provided with a discharging mechanism, one side of the discharging mechanism is provided with a guide mechanism, the other side of the digital ink-jet printing main body is provided with a drying mechanism, one side of the drying mechanism is provided with a winding mechanism, one end of the cloth is connected with the discharging mechanism, the cloth passes through the guide mechanism, the digital ink-jet printing main body and the drying mechanism and is connected with the winding mechanism, the drying mechanism comprises a drying rack, a supporting roller, a drying plate, a heating plate, a preheating plate, a fixed block, a drying heating pipe and a mounting groove, the fixed block is fixedly mounted at the inner side of the upper end of the drying rack, the mounting groove is formed in the upper surface of the fixed block, the drying plate, the, the support rollers are arranged on two sides of the fixing block and are rotationally connected with the drying frame, the drying plate, the heating plate and the preheating plate are all provided with drying heating pipes, and the cloth passes through the upper side of the fixing block and is in contact with the support rollers; an air exhaust mechanism is arranged on the upper side of the drying mechanism, the air exhaust mechanism comprises an exhaust hole and an exhaust fan, the exhaust hole is formed in the upper surface of the drying rack, and the exhaust fan is installed on the inner side of the upper end of the drying rack and corresponds to the exhaust hole in position; the drying heating pipes on the drying plate, the heating plate and the preheating plate are respectively a high-temperature drying pipe, a heating pipe and a preheating pipe, and openings are formed in one side of the drying rack corresponding to the positions of the drying plate, the heating plate and the preheating plate; the cross sections of the drying plate, the heating plate, the preheating plate and the mounting groove are all in a dovetail shape; the upper surface of the drying rack is fixedly connected with condensing pipes which are uniformly arranged; one end of the condensing pipe is communicated with the exhaust hole, and the other ends of the condensing pipes are mutually communicated with a return pipe; the upper surface of the fixed block is provided with uniformly distributed spray heads; the spray head is positioned on the side surface of one side of the preheating plate away from the heating plate; the spray head is communicated with a return pipe; during operation, cloth passes through the upside of fixed block and contacts with the backing roll, the upside of drying mechanism is provided with air exhaust mechanism, can extract the gas that the stoving produced through air exhaust mechanism and discharge, the gas that discharges contacts the condenser pipe inner wall when passing through the condenser pipe, make the vapor in the gas after the condensation, dry gas flows to shower nozzle department through the back flow and spouts, before preheating plate preheats the cloth, preheat the cloth through steam preliminarily, when improving heat utilization ratio, improve the preheating and drying efficiency of cloth, thereby improve the production efficiency of cloth, simultaneously through drying plate, the stoving heating pipe on hot plate and the preheating plate is high temperature drying pipe, heating pipe and preheating pipe respectively, can preheat the cloth after the stamp and dry again, prevent that the sudden rise of temperature from leading to the cloth to appear damaging, and one side of stoving frame corresponds drying plate, Openings are formed in the positions of the heating plate and the preheating plate, so that the drying plate, the heating plate and the preheating plate can be conveniently pulled out from the fixing blocks in the drying rack.

Preferably, the inner wall of the condensation pipe is fixedly connected with condensation plates which are uniformly arranged; the condensing plate is obliquely designed, and the diameters of the condensing pipes are sequentially reduced from bottom to top; the lower surface of the condensation plate is provided with a diversion trench; a reflux groove is formed in the condensation pipe; the upper surface and the lower surface of each condensing plate are communicated with the inside of the flow guide groove; a sliding groove is formed in the inner wall of the condensation pipe; the extrusion plate is connected in the sliding groove in a sliding manner; sponge is fixedly connected between the extrusion plate and the bottom of the sliding groove; the diversion trench is communicated with the chute, and the sponge is arranged to be close to the inner wall of the chute; a collecting box is fixedly connected above the drying rack; the condensation pipe is positioned in the collection box; a water outlet is formed in the outer surface of the condensing tube; the water outlets are communicated with the sliding chutes through water outlet holes which are uniformly arranged; an L-shaped extrusion rod is fixedly connected above the exhaust fan; the upper end of the extrusion rod is designed in a spherical surface mode, and the extrusion pressing plate can be arranged; when the device works, hot gas enters the condensing pipe and then contacts the condensing plate, the condensing speed of water vapor in the hot gas can be accelerated through the condensing plate, so that excessive heat dissipation in the hot gas is prevented, the heat utilization rate is improved, meanwhile, the water vapor is condensed into water drops, flows into the backflow groove along the upper surface of the condensing plate and the diversion trench, flows into the sliding groove through the backflow groove and is absorbed by sponge, meanwhile, the general extrusion rod is worn to rotate in the rotation process of the exhaust fan, the extrusion rod intermittently extrudes and releases the extrusion plate in the rotation process through the L-shaped design of the extrusion rod, the extrusion plate intermittently extrudes and releases the sponge, so that the water absorbed in the sponge is extruded when the extrusion plate extrudes the sponge and is discharged into the collecting box through the water discharging hole and the water discharging port, the water absorption repeatability of the sponge is realized, the water drops generated by the condensation of the water vapor are prevented from falling onto the cloth, the drying of the cloth is influenced, meanwhile, the heat utilization rate is improved, and the energy consumption is reduced.

Preferably, a cooling mechanism is arranged on the lower side of the drying mechanism, the cooling mechanism comprises a pipeline, a finned tube heat exchanger, a cooling tube, a water pump and a water tank, the cooling tube is fixed on the inner side of the drying rack, cloth passes through the surface of the cooling tube, one end of the cooling tube is connected with the water pump through the pipeline, the water pump is installed on the inner side of the lower end of the drying rack, the other end of the cooling tube is connected with the finned tube heat exchanger through the pipeline, the finned tube heat exchanger is installed at one end of the drying rack, one end of the water pump is connected with the lower end of the water tank through the pipeline, the water tank is installed on one side of the drying rack, and the; during operation, can cool off the cloth after drying through cooling body, prevent that the cloth from appearing damaging.

Preferably, the guide mechanism comprises a guide frame and a guide roller, the guide roller is rotatably mounted on the inner side of the guide frame, the cloth penetrates through the guide mechanism and enters the digital ink-jet printing main body, and the surface of the guide roller is provided with convex patterns which are arranged in a splayed manner; during operation, in the cloth passed guiding mechanism and got into digital inkjet printing main part, the surface of guide roll was provided with the burr, and the burr becomes the splayed setting, when leading the transport through the guide roll to the cloth, can make the cloth expand to the outside through the burr of splayed, prevents that the fold from appearing in the cloth.

Preferably, the discharging mechanism comprises a discharging roller, a discharging frame and a discharging motor, the discharging roller is arranged on the inner side of the discharging frame, the discharging motor is arranged at one end of the discharging frame, the output end of the discharging motor is connected with one end of the discharging roller, and one end of the cloth is connected with the discharging roller; during operation, the discharging motor drives the discharging roller to rotate, so that discharging of cloth is achieved.

Preferably, the winding mechanism comprises a winding motor, a winding frame and a winding roller, the winding roller is arranged on the inner side of the winding frame, the winding motor is installed at one end of the winding frame, and the output end of the winding motor is connected with one end of the winding roller.

The invention has the following beneficial effects:

1. according to the digital ink-jet type cloth printing machine, the drying heating pipes are arranged on the drying plate, the heating plate and the preheating plate through the designed mounting groove, the drying plate, the heating plate and the preheating plate, and when the drying heating pipes are damaged, the drying heating pipes can be pulled out through the clamping of the mounting groove, the drying plate, the heating plate and the preheating plate, so that the drying heating pipes can be conveniently detached for maintenance.

2. According to the digital ink-jet type cloth printing machine, when the cloth after ink jet is dried, the cloth can be preheated through the preheating plate, and then the temperature is raised and the cloth is dried through the heating plate and the drying plate, so that the situation that the printing on the cloth is damaged due to the fact that the cloth is too high in stability and ink is suddenly heated when the cloth and the ink enter the drying process is prevented.

3. According to the digital ink-jet cloth printing machine, due to the fact that the splayed convex patterns are designed on the guide roller, when the cloth is guided, the splayed convex patterns can rub with the cloth, the cloth can be unfolded towards two sides, and the phenomenon that the cloth is wrinkled to cause incomplete printing is avoided.

4. According to the digital ink-jet cloth printing machine, the arrangement of the condensing pipe and the spray head can effectively recycle hot gas generated in the cloth drying process, and the cloth is preliminarily preheated, so that the energy consumption is reduced, and the production efficiency is improved.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic side view of the drying and cooling mechanism of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged view of a portion of the invention at B in FIG. 2;

FIG. 5 is a schematic view of the installation structure of the drying heating pipe of the present invention;

FIG. 6 is a schematic view of the construction of a guide roll of the present invention;

in the figure: the digital inkjet printing device comprises a digital inkjet printing main body 1, a winding motor 2, a winding frame 3, an exhaust hole 4, a drying frame 5, cloth 6, a winding roller 7, a pipeline 8, a finned tube heat exchanger 9, a guide frame 10, a discharging roller 11, a guide roller 12, a discharging frame 13, a discharging motor 14, an exhaust fan 15, a cooling pipe 16, a water pump 17, a water tank 18, a support roller 19, a drying plate 20, a heating plate 21, a preheating plate 22, a fixed block 23, a drying heating pipe 24, a mounting groove 25, a convex pattern 26, a condensing pipe 27, a return pipe 28, a spray head 29, a condensing plate 30, a diversion groove 31, a return groove 32, a sliding groove 33, an extrusion plate 34, sponge 35, a collection box 36, a water outlet 37.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 and 6, the digital ink-jet fabric printing machine of the present invention comprises a digital ink-jet printing main body 1 and a fabric 6, wherein one side of the digital ink-jet printing main body 1 is provided with a discharging mechanism, one side of the discharging mechanism is provided with a guiding mechanism, the other side of the digital ink-jet printing main body 1 is provided with a drying mechanism, one side of the drying mechanism is provided with a winding mechanism, one end of the fabric 6 is connected with the discharging mechanism, the fabric 6 passes through the guiding mechanism, the digital ink-jet printing main body 1 and the drying mechanism to be connected with the winding mechanism, the drying mechanism comprises a drying rack 5, a supporting roller 19, a drying plate 20, a heating plate 21, a preheating plate 22, a fixed block 23, a drying heating pipe 24 and a mounting groove 25, the fixed block 23 is fixedly mounted on the inner side of the upper end of the drying, the drying plate 20, the heating plate 21 and the preheating plate 22 are sequentially arranged on the upper side of the fixing block 23 and clamped in the mounting groove 25, the supporting rollers 19 are arranged on two sides of the fixing block 23 and rotatably connected with the drying rack 5, the drying plate 20, the heating plate 21 and the preheating plate 22 are all provided with drying heating pipes 24, and the cloth 6 passes through the upper side of the fixing block 23 and is in contact with the supporting rollers 19; an air exhaust mechanism is arranged on the upper side of the drying mechanism, the air exhaust mechanism comprises an exhaust hole 4 and an exhaust fan 15, the exhaust hole 4 is formed in the upper surface of the drying rack 5, and the exhaust fan 15 is installed on the inner side of the upper end of the drying rack 5 and corresponds to the exhaust hole 4 in position; the drying heating pipes 24 on the drying plate 20, the heating plate 21 and the preheating plate 22 are respectively a high-temperature drying pipe, a heating pipe and a preheating pipe, and one side of the drying rack 5 is provided with openings corresponding to the positions of the drying plate 20, the heating plate 21 and the preheating plate 22; the cross sections of the drying plate 20, the heating plate 21, the preheating plate 22 and the mounting groove 25 are all in a dovetail shape; the upper surface of the drying rack 5 is fixedly connected with condensing pipes 27 which are uniformly arranged; one end of the condensation pipe 27 is communicated with the exhaust hole 4, and the other ends are mutually communicated with a return pipe 28; the upper surface of the fixed block 23 is provided with uniformly arranged spray heads 29; the spray head 29 is positioned on the side surface of the preheating plate 22 far away from the heating plate 21; the spray head 29 is communicated with the return pipe 28; during operation, the cloth 6 passes through the upper side of the fixing block 23 and contacts the supporting roll 19, an air exhaust mechanism is arranged on the upper side of the drying mechanism, air generated by drying can be extracted and exhausted through the air exhaust mechanism, the exhausted air contacts the inner wall of the condensing pipe 27 when passing through the condensing pipe 27, after water vapor in the air is condensed, the dry air flows to the spray head 29 through the return pipe 28 and is sprayed out, before the preheating plate 22 preheats the cloth 6, the cloth 6 is preliminarily preheated through hot air, the preheating and drying efficiency of the cloth 6 is improved while the heat utilization rate is improved, the production efficiency of the cloth 6 is improved, meanwhile, the high-temperature drying pipe, the heating pipe and the preheating pipe are respectively arranged on the drying plate 20, the heating plate 21 and the drying heating pipe 24 on the preheating plate 22, the cloth 6 after printing can be preheated and dried, and damage to the cloth 6 caused by sudden temperature rise is, and one side of the drying rack 5 is provided with openings corresponding to the positions of the drying plate 20, the heating plate 21 and the preheating plate 22, so that the drying plate 20, the heating plate 21 and the preheating plate 22 can be conveniently drawn out from the fixing block 23 in the drying rack 5.

As an embodiment of the present invention, the inner wall of the condensation pipe 27 is fixedly connected with condensation plates 30 which are uniformly arranged; the condenser plate 30 is designed obliquely, and the diameters of the condenser pipes 27 are reduced from bottom to top in sequence; the lower surface of the condensation plate 30 is provided with a diversion trench 31; a return groove 32 is formed in the condensation pipe 27; the upper surface and the lower surface of each condensation plate 30 are communicated with the inside of the diversion trench 31; the inner wall of the condensation pipe 27 is provided with a sliding chute 33; the sliding groove 33 is internally and slidably connected with an extrusion plate 34; sponge 35 is fixedly connected between the extrusion plate 34 and the bottom of the sliding groove 33; the diversion trench 31 is communicated with the chute 33, and the sponge 35 is arranged to cling to the inner wall of the chute 33; a collecting box 36 is fixedly connected above the drying rack 5; the condensation duct 27 is located inside the collection box 36; a water outlet 37 is formed in the outer surface of the condensation pipe 27; the water outlets 37 are communicated with the sliding grooves 33 through water outlet holes which are uniformly arranged; an L-shaped extrusion rod 38 is fixedly connected above the exhaust fan 15; the upper end of the extrusion rod 38 is designed in a spherical surface, and the extrusion pressing plate 34 can be arranged; during operation, hot air enters the condensation pipe 27 and then contacts the condensation plate 30, the condensation speed of water vapor in the hot air can be accelerated through the condensation plate 30, thereby preventing excessive heat dissipation in the hot air, improving the heat utilization rate, meanwhile, after the water vapor is condensed into water drops, the water vapor flows into the backflow groove 32 along the upper surface of the condensation plate 30 and the diversion groove 31, flows into the sliding groove 33 through the backflow groove 32 and is absorbed by the sponge 35, meanwhile, the extrusion rod 38 is worn to rotate in the rotation process of the exhaust fan 15, thereby through the L-shaped design of the extrusion rod 38, the extrusion rod 38 intermittently extrudes and releases the extrusion plate 34 in the rotation process, the sponge 35 is intermittently extruded and released by the extrusion plate 34, the water absorbed by the sponge 35 is extruded when the extrusion plate 34 extrudes the sponge 35 and is discharged into the collection box 36 through the water discharge hole and the water discharge outlet, thereby realizing the repeated water absorption of the sponge 35, and preventing the water drops generated by the water vapor condensation from falling onto the cloth, the drying of the cloth 6 is influenced, so that the drying efficiency of the cloth 6 is further improved, the heat utilization rate is improved, and the energy consumption is reduced.

As an embodiment of the invention, a cooling mechanism is arranged at the lower side of the drying mechanism, the cooling mechanism comprises a pipeline 8, a finned tube heat exchanger 9, a cooling tube 16, a water pump 17 and a water tank 18, the cooling tube 16 is fixed at the inner side of the drying rack 5, the cloth 6 passes through the surface of the cooling tube 16, one end of the cooling tube 16 is connected with the water pump 17 through the pipeline 8, the water pump 17 is installed at the inner side of the lower end of the drying rack 5, the other end of the cooling tube 16 is connected with the finned tube heat exchanger 9 through the pipeline 8, the finned tube heat exchanger 9 is installed at one end of the drying rack 5, one end of the water pump 17 is connected with the lower end of the water tank 18 through the pipeline 8, the water tank 18 is installed at one side of the drying rack 5, and the upper end; during operation, can cool off the cloth 6 after drying through cooling body, prevent that damage from appearing in cloth 6.

As an embodiment of the present invention, the guide mechanism comprises a guide frame 10 and a guide roller 12, the guide roller 12 is rotatably mounted inside the guide frame 10, the cloth 6 passes through the guide mechanism and enters the digital inkjet printing main body 1, the surface of the guide roller 12 is provided with a relief 26, and the relief 26 is arranged in a figure-eight shape; during operation, cloth 6 passes in guiding mechanism gets into digital inkjet printing main part 1, and the surface of guide roll 12 is provided with burr 26, and burr 26 becomes the splayed setting, when leading through guide roll 12 to cloth 6 and carrying, can make 6 outsides of cloth expand through the burr 26 of splayed, prevents that cloth 6 from appearing the fold.

As an embodiment of the invention, the discharging mechanism comprises a discharging roller 11, a discharging frame 13 and a discharging motor 14, the discharging roller 11 is installed inside the discharging frame 13, the discharging motor 14 is installed at one end of the discharging frame 13, the output end of the discharging motor 14 is connected with one end of the discharging roller 11, and one end of the cloth 6 is connected with the discharging roller 11; when the automatic feeding device works, the feeding motor 14 drives the feeding roller 11 to rotate, so that feeding of the cloth 6 is realized.

As an embodiment of the invention, the winding mechanism comprises a winding motor 2, a winding frame 3 and a winding roller 7, the winding roller 7 is arranged on the inner side of the winding frame 3, the winding motor 2 is installed at one end of the winding frame 3, and the output end of the winding motor 2 is connected with one end of the winding roller 7.

During operation, cloth 6 is placed on a discharging roller 11, then passes through a guide frame 10 through a guide roller 12, during discharging, the cloth 6 is unfolded towards two sides through splayed convex patterns 26 on the surface of the guide roller 12 to prevent wrinkles, then enters a digital ink-jet printing main body 1 for ink-jet printing, then passes through a fixed block 23 through the support of a support roller 19 in a drying frame 5, is preheated through a mounting groove 25 on a preheating plate 22, is dried through a heating plate 21 and the mounting groove 25 on the preheating plate 22, gas generated by drying is discharged from an exhaust hole 4 through an exhaust fan 15, the discharged gas contacts the inner wall of a condensing pipe 27 when passing through the condensing pipe 27, after water vapor in the gas is condensed, the dried gas flows to a spray head 29 through a return pipe 28 to be sprayed out, before the preheating plate 22 preheats the cloth 6, the cloth 6 is preliminarily preheated through hot gas, the hot gas enters the condensing pipe 27 and contacts the condensing plate 30, the condensing speed of the steam in the hot gas can be accelerated through the condensing plate 30, thereby preventing excessive heat dissipation in the hot gas, improving the heat utilization rate, meanwhile, after the steam is condensed into water drops, the steam flows into the reflux groove 32 along the upper surface of the condensing plate 30 and the diversion trench 31, flows into the chute 33 through the reflux groove 32 and is absorbed by the sponge 35, meanwhile, the extrusion rod 38 is worn to rotate in the rotation process of the exhaust fan 15, thereby through the L-shaped design of the extrusion rod 38, the extrusion rod 38 intermittently extrudes and releases the extrusion plate 34 in the rotation process, the extrusion plate 34 intermittently extrudes and releases the sponge 35, thereby the water absorbed in the sponge 35 is extruded when the extrusion plate 34 extrudes the sponge 35 and is discharged into the collection box 36 through the water discharge hole and the water discharge port, thereby realizing the repeated water absorption of the sponge 35, when the cloth 6 passes through the cooling pipe 16, the water pump 17 pumps cooling water from the water tank 18 to enter the cooling pipe 16 to absorb heat and cool the cloth 6, so as to prevent the cloth 6 from deforming, then the cooling water is discharged into the finned tube heat exchanger 9 to dissipate heat, the water is introduced into the water tank 18 after being cooled again, so that the cooling water is recycled, and the cooled cloth 6 is wound on the winding roller 7, so that the use process of the invention is completed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a digital inkjet formula cloth calico printing machine, includes digital inkjet printing main part (1) and cloth (6), one side of digital inkjet printing main part (1) is provided with drop feed mechanism, one side of drop feed mechanism is provided with guiding mechanism, the opposite side of digital inkjet printing main part (1) is provided with stoving mechanism, one side of stoving mechanism is provided with winding mechanism, the one end and the drop feed mechanism of cloth (6) are connected, and cloth (6) pass guiding mechanism, digital inkjet printing main part (1), stoving mechanism and winding mechanism and be connected its characterized in that: the drying mechanism comprises a drying rack (5), a supporting roller (19), a drying plate (20), a heating plate (21), a preheating plate (22), a fixed block (23), a drying heating pipe (24) and a mounting groove (25), the fixed block (23) is fixedly arranged at the inner side of the upper end of the drying rack (5), the mounting groove (25) is arranged on the upper surface of the fixed block (23), the drying plate (20), the heating plate (21) and the preheating plate (22) are sequentially arranged on the upper side of the fixing block (23) and clamped in the mounting groove (25), the supporting rollers (19) are arranged on two sides of the fixing block (23) and are rotationally connected with the drying rack (5), the drying plate (20), the heating plate (21) and the preheating plate (22) are all provided with drying heating pipes (24), the cloth (6) passes through the upper side of the fixing block (23) and is in contact with the supporting roller (19); an air exhaust mechanism is arranged on the upper side of the drying mechanism, the air exhaust mechanism comprises an exhaust hole (4) and an exhaust fan (15), the exhaust hole (4) is formed in the upper surface of the drying rack (5), and the exhaust fan (15) is installed on the inner side of the upper end of the drying rack (5) and corresponds to the exhaust hole (4); the drying heating pipes (24) on the drying plate (20), the heating plate (21) and the preheating plate (22) are respectively a high-temperature drying pipe, a heating pipe and a preheating pipe, and one side of the drying rack (5) is provided with openings corresponding to the positions of the drying plate (20), the heating plate (21) and the preheating plate (22); the cross sections of the drying plate (20), the heating plate (21), the preheating plate (22) and the mounting groove (25) are all in a dovetail shape; the upper surface of the drying rack (5) is fixedly connected with condensing pipes (27) which are uniformly arranged; one end of the condensation pipe (27) is communicated with the exhaust hole (4), and the other ends of the condensation pipe and the exhaust hole are mutually communicated with a return pipe (28); the upper surface of the fixed block (23) is provided with uniformly distributed spray heads (29); the spray head (29) is positioned on the side surface of the preheating plate (22) far away from the heating plate (21); the spray head (29) is communicated with the return pipe (28).

2. A digital ink jet textile printing machine according to claim 1, wherein: the inner wall of the condensation pipe (27) is fixedly connected with condensation plates (30) which are uniformly arranged; the condensing plate (30) is obliquely designed, and the diameters of the condensing pipes (27) are sequentially reduced from bottom to top; the lower surface of the condensation plate (30) is provided with a diversion trench (31); a reflux groove (32) is formed in the condensation pipe (27); the upper surface and the lower surface of each condensing plate (30) are communicated with the inside of the flow guide groove (31); a sliding groove (33) is formed in the inner wall of the condensation pipe (27); the sliding groove (33) is internally and slidably connected with an extrusion plate (34); a sponge (35) is fixedly connected between the extrusion plate (34) and the bottom of the sliding groove (33); the diversion trench (31) is communicated with the chute (33), and the sponge (35) is tightly attached to the inner wall of the chute (33); a collecting box (36) is fixedly connected above the drying rack (5); the condensation pipe (27) is positioned in the collection box (36); a water outlet (37) is formed in the outer surface of the condensation pipe (27); the water outlets (37) are communicated with the sliding grooves (33) through water outlet holes which are uniformly arranged; an L-shaped extrusion rod (38) is fixedly connected above the exhaust fan (15); the upper end of the extrusion rod (38) is designed in a spherical surface mode, and the extrusion pressing plate (34) can be extruded.

3. A digital ink jet textile printing machine according to claim 1, wherein: a cooling mechanism is arranged at the lower side of the drying mechanism, the cooling mechanism comprises a pipeline (8), a finned tube heat exchanger (9), a cooling pipe (16), a water pump (17) and a water tank (18), the cooling pipe (16) is fixed at the inner side of the drying rack (5), the cloth (6) passes through the surface of the cooling pipe (16), one end of the cooling pipe (16) is connected with a water pump (17) through a pipeline (8), the water pump (17) is arranged on the inner side of the lower end of the drying rack (5), the other end of the cooling pipe (16) is connected with the finned tube heat exchanger (9) through a pipeline (8), the finned tube heat exchanger (9) is arranged at one end of the drying rack (5), one end of the water pump (17) is connected with the lower end of the water tank (18) through a pipeline (8), the water tank (18) is arranged on one side of the drying rack (5), and the upper end of the water tank (18) is connected with the finned tube heat exchanger (9) through a pipeline (8).

4. A digital ink jet textile printing machine according to claim 1, wherein: guiding mechanism includes leading truck (10) and guide roll (12), guide roll (12) rotate and install the inboard at leading truck (10), cloth (6) pass in guiding mechanism gets into digital inkjet printing main part (1), the surface of guide roll (12) is provided with burr (26), burr (26) become the splayed setting.

5. A digital ink jet textile printing machine according to claim 1, wherein: the discharging mechanism comprises a discharging roller (11), a discharging frame (13) and a discharging motor (14), wherein the discharging roller (11) is installed on the inner side of the discharging frame (13), the discharging motor (14) is installed at one end of the discharging frame (13), the output end of the discharging motor (14) is connected with one end of the discharging roller (11), and one end of the cloth (6) is connected with the discharging roller (11).

6. A digital ink jet textile printing machine according to claim 1, wherein: winding mechanism includes rolling motor (2), rolling frame (3) and wind-up roll (7), wind-up roll (7) set up the inboard at rolling frame (3), the one end at rolling frame (3) is installed in rolling motor (2), the output of rolling motor (2) is connected with the one end of wind-up roll (7).